DE102006028040A1 - Heating system for use in building, has mixing unit for mixing hot water from hot water tank with water from cold water inlet pipe, in order to obtain desired output temperature at end of warm water delivery pipe - Google Patents

Abstract

The system has a hot water tank (5) for storing hot water, where the hot water tank exhibits a heat exchanger for heating the water in the hot water tank. A heat pump (1) is provided for heating the fluid in a cycle, and an instantaneous water heater (2) is provided for additional heating of the fluid in the cycle. A mixing unit mixes the hot water from the hot water tank with water from a cold water inlet pipe (KW), in order to obtain a desired output temperature at an end of a warm water delivery pipe (WW). An independent claim is also included for a method of controlling a heating system.

Description

The The present invention relates to a heating system.

Either in the housing market as well as commercially used buildings an efficient and energy-saving heating, hot water preparation, cooling as well as ventilation especially with regard to the rising energy costs desired.

DE 10 2005 003 455 A1 shows a storage water heater with a heat pump as the main heat source, a memory for storing hot water in an upper portion and cold water in a lower portion. Furthermore, the heater has an auxiliary heating unit as a supplementary heat source, which heats cold water. Further, the heater has a control unit which controls the heat pump for predetermined periods of time for heating and storing the heating water in the memory, wherein the auxiliary heating unit is controlled to additionally provide hot water.

It is therefore an object of the present invention, an energy-saving Provide heating system.

These Task is solved by the heating system according to claim 1.

Further Aspects of the invention are defined in the dependent claims.

The embodiments and advantages of the invention will be with reference to the drawings explained in more detail.

1 shows a schematic representation of a heating system according to a first embodiment,

2 shows a schematic representation of a heating system according to a second embodiment,

3 shows a schematic representation of a heating system according to a third embodiment, and

4 shows a schematic representation of a heating system according to a fifth embodiment.

1 shows a schematic representation of a heating system according to a first embodiment. Here, in particular, a system is shown in which the hot water tank can be charged by a water circulation and by a heat exchanger. The heating system has a cold water inlet KW, a hot water tank 5 , a heat pump 1 , a heat exchanger 3 , a pump 9 , a mixing valve 6 and a water heater 2 on. The heat exchanger 3 is via the heat pump 1 supplied with heat and gives off this heat to a hot water circulation when the pump 9 is activated, there is a hot water circulation WW. Preferably, near the pump 9 a temperature sensor 11 arranged in a circle. Additionally or alternatively, another temperature sensor may be in the memory 5 be arranged to determine the supplied hot water temperature. Furthermore, another temperature sensor 12 in the hot water circulation WW behind the water heater 2 be arranged.

The two temperature sensors 11 . 12 , the pump 9 as well as the mixing valve 6 can each with a control unit 13 be coupled, which is designed to the mixing valve 6 , the pump 9 and the heat pump 1 according to the detected temperatures of the temperature sensors 11 . 12 to control. In particular, by means of the temperature sensor 12 recorded temperature behind the water heater 2 the temperature at the tap by means of the control unit 13 be set exactly.

The mixing valve 6 is doing so with the hot water tank 5 and connected to the hot water circuit WW, that in a first mode of operation on passage between the heat exchanger 3 and the memory 5 can be switched so that the water in the store 5 can be heated.

During a tapping operation, the mixing valve 6 adjusted so that the water from the heat exchanger 3 and hot water from the store 5 is mixed to a mixed amount of water. Preferably, the mixing valve 6 set such that a desired temperature, which is needed for example for showering, for example, by activating the available heating power of the water heater 2 (ie an additional warming of the hot water, which comes from the mixing valve 6 flows) is reached at the outlet of the hot water pipe WW.

The heat pump 1 can be provided for example with a recording power of 0.6 kW and can thus produce a heating power of about 1.5 kW. This can still the heating power of the water heater 2 be added.

During a tapping operation, the control device 13 recognize that a user taps water for a longer period of time. This can be done, for example, when hot water is tapped for longer than about 15 seconds, which thus goes beyond the usual hand washing. The Zapferken tion can additionally or alternatively be done via a flow sensor (for example, an impeller), which is arranged in or on the hot water pipe WW. Alternatively, a Zapferkennung can also be done via the temperature sensors by these determine a temperature gradient. If a strong temperature gradient is detected, a tap start or a tap may be present. However, when the temperature at the temperature sensor has a high gradient, it can be considered that cold water has come to the temperature sensor.

For tapping, for example, a tap 14 be opened in the hot water pipe WW. According to the temperature set on the tap, cold water and water are removed from the tank 5 at the mixing valve 6 mixed accordingly. The cold water can pass through a cold water pipe KW through the heat exchanger 3 to be heated when the heat pump 1 is turned on. This heated water as well as the hot water from the store 5 is in the mixing valve 6 mixed so that the required temperature at the tap can be achieved. Preferably, the mixing valve 6 via the control unit 13 controlled by the temperature sensors 11 . 12 detected temperatures as input values.

For example, if a shower temperature of 37 ° C at the tap is set and the cold water only a temperature of 14 ° C and the water in the hot water tank 5 has a temperature of 55 ° C, then a mixing ratio of X: Y can be adjusted. If now the controller 13 - As explained above - recognizes that a larger amount of hot water is needed, for example, because it is showered and thus should be tapped longer, reduces the control device 13 the removal amount of hot water from the store 5 and activates the water heater 2 and / or the heat pump 1 , The from the store 5 drafted hot water is reduced as much as possible by taking advantage of the full heating capacity of the water heater and / or the heat pump to a volume flow from the hot water tank 5 from al / min to bl / min. Thus, the actual available hot water amount increases to z times.

According to one another operating mode, either the water heater or the Heat pump switched on to support the water heating. Alternatively or in addition will be first the heat pump turned on while the Water heater remains switched off. This is done to the existing one Thermal energy to provide in an efficient way. Alternatively, too first first the water heater to be turned on to the heat pump to protect. Furthermore, can both heat generators, d. H. so probably the heat pump as well as the water heater, are turned on at the same time.

The pump 9 is switched off during dispensing operation and is only activated if a water flow is desired. Thus, there is a shift in the memory 5 water is not provided.

The water heater 5 may for example have between 50 and 80 l. That is in the store 5 water is through the heat pump 1 and the heat exchanger 3 heated to a reasonable temperature level, for example, 50 to 55 ° C. When large volumes of water are needed, for example, to fill a bathtub or for multiple showers, the hot water (55 ° C) is removed from the storage tank 5 with cold water from the cold water pipe KW in the mixing valve 6 mixed. The admixture of hot water and cold water takes place in such a way that a water heater 2 with for example 6 KW is still able to heat the hot water in the hot water pipe WW further to provide a corresponding desired temperature for showering or bathing (for example, 40 ° C). Thus, the effective hot water volume can be virtually increased from 80 l to about twice the amount.

The Heating system according to the first embodiment preferably provides a compact (air / water / brine) heating and Water heat pump or just a domestic water heat pump. With the heating system according to the first embodiment There is a significant reduction of the hot water tank for example, allows about 50 liters, without having to reduce the tapable amount of water significantly. Thus, can a small plant, which preferably as a wall-mounted spa be designed to be provided.

At the Spigot of hot water is using the heat pump a high environmental energy share during warming used the water. To ensure sufficient comfort, is additionally an Flow heater vorgese hen, which, however, only a small Energy contribution and for example during Peak times is activated.

If the desired outlet water temperature is between 38 and 42 ° C, then cold water (about 10 to 14 ° C) is heated by the cold water pipe KW through the heat pump and the heat exchanger to about 20 ° C. The 50 liters of water in the store 5 can be done in advance by means of the heat pump 1 be heated to a temperature of 50 to 55 ° C. This water is requested by a tapping process and flows to the mixer 6 and will there mixed with the 20 ° C warm water from the heat exchanger, so that the starting temperature is about 33 ° C. The 33 ° C warm water then flows through the water heater 2 (2 to 4 kW power) and is increased to the desired user temperature of 38 to 42 ° C.

consequently can the available standing water at 38 ° C increased to about 155 liters Although the heating system only a small hot water tank of 50 liters. Thus, a total investment with a small Dimension with a high degree of utilization of environmental energy and by a permanent one Use of a water heater with low power to be made possible. The above described heating system according to the first embodiment can be realized single phase. This is in particular a comfortable operation the heating system with a single-phase electrical connection possible. With multiphase connections the heating power can be improved, whereby, for example, the Duration of heating the hot water tank is shortened and / or a simultaneous heating operation takes place.

2 shows a schematic representation of a heating system according to a second embodiment. The plant has a cold water supply KW, a memory 5 for hot water and a hot water pipe WW. A heat pump 1 is about a pump 9 with a heat exchanger 5a in the store 5 coupled. In this circle can be a water heater 2a and a heat exchanger 3a be arranged. In front of the pump 9 can be a bypass 16 and a mixing valve 18 be arranged. The water heater 2a serves to support or supplement the heat pump performance and to further heat the water in this circuit.

Parallel to the heat exchanger 3a can be a bypass 15 with a valve 19 be provided so that the heat exchanger 3a can be bypassed.

During a heating operation for heating the water in the storage 5 For energy reasons, preferably only the heat pump 1 in operation. In addition to this, the instantaneous water heater 2a be activated to the operation of the heat pump 1 to assist, especially when higher temperatures or faster heating are needed.

Furthermore, a heating circuit 4 with a pump 10 provided, which parallel to the heat exchanger 5a is arranged in the memory. The water heater 2a can be turned on, for example, when a domestic water preparation and at the same time a space heating should be done. This is a bypass 17 with a valve 8b intended. If only cold water is to be tapped, heating of the heating circuit can nevertheless take place 4 respectively. The bypass 17 may also be used to attach to the heat exchanger 5a passing a partial volume flow past.

During a tapping operation, a tap or a valve 14 open. In the hot water pipe WW and cold water pipe KW water flows through both the heat exchanger and / or partially via the bypass and the mixing valve 6 to the tap. At the same time cold water flows down into the store 5 one. Hot water, on the other hand, flows out of the storage tank 5 upwards and mixes with the cold water in the area of the mixing valve 6 to a predetermined or set temperature and can be tapped from the hot water pipe.

If a predetermined bleeding interval, such as 15 seconds, is exceeded, then the heat pump can be used 1 be switched on and the cold water is through the heat exchanger 5a preheated. This is before geous, since the amount of water removed from the memory can be reduced, while the total volume of hot water at the tap remains the same. The available at the tap hot water amount can also by switching on the water heater 2a and over the heat exchanger 5a be further increased, while the volume flow from the hot water tank can be reduced. The proportion of hot water or the preheated portion of the hot water volume flow can via the mixing valve 6 increase. Alternatively to the mixing valve, a three-way mixing valve can be used.

Furthermore, another bypass 16 be provided, which serves the heat transfer to cold water in the memory 15 especially in the lower area to avoid (this bypass has the heat exchanger 5a and the mixing valve 6 on). If cold water flows into the lower part of the storage tank, the existing heat energy is released to the cold water without reaching a usable temperature of the hot water. They are in the store 5 hot water volume is higher by a power of 10 than the amount of water in the cold water line. The bypass will be closed again only if there is a heating of the hot water tank 5 should be done. The hot water tank 5 may preferably be configured as a layer memory, in which by a temperature stratification hot water at a corresponding usable temperature of at least 40 ° C is provided.

3 shows a schematic representation a heating system according to a third embodiment. The heating system according to the third embodiment substantially corresponds to the heating system according to the second embodiment. Thus, the heating system has a cold water supply KW, a memory 5 for hot water and a hot water pipe WW. In the store 5 is a heat exchanger 5a provided, which via a pump 9 , a valve 8a , with a heat pump 1 coupled in a circuit. In addition to this, a water heater 2a and a heat exchanger 3a be provided in this cycle. Parallel to the heat exchanger 5a can a heating circuit 4 with a pump 10 and a valve 8b be arranged. At the outlet of the hot water pipe WW is a mixing valve 22 provided (3-way mixing valve), which is inter alia coupled with the cold water supply KW.

To control the heating system is a central control unit 27 intended. For controlling and regulating the heating system, a plurality of temperature sensors are preferably provided. A first temperature sensor 21 is provided at the output, ie the hot water pipe WW. Another temperature sensor 26 is at the outlet of the water heater 2a intended. Furthermore, at least two temperature sensors 24 . 25 in the hot water tank 5 to be ordered. Based on the temperature detected by these temperature sensors, the control unit controls 27 the heat pump 1 , the water heater 2a , the pump 9 , the pump 10 , the control valve 23 and the throttle 22 to set a desired hot water temperature at the outlet of the hot water pipe WW.

Preferably, hot water at about 60 ° C to the mixing valve 22 directed. This is particularly desirable in terms of killing legionella and other bacteria. In the mixing valve 22 cold water from the cold water pipe KW is mixed, so that the desired hot water temperature can be provided during tapping.

If the memory 5 several temperature sensors 24 . 25 has, then the control unit 27 monitor the state of charge of the memory and control accordingly. The control of the control unit 27 can be done both temperature- and time-controlled. A combination of a temperature- and time-controlled control is also possible. Through one of the temperature sensors 21 . 24 . 25 . 26 may be detected that a heating is required, and a corresponding charge or a layer charge of the memory can by means of the temperature sensors 24 . 25 respectively. When the heat output of the heat pump 1 or the water heater 2a is known, such charging can also be done by a time-controlled control.

The throttle 22 in the hot water pipe WW can from the control unit 27 be controlled so that at least or always set by the user water temperature is provided. This proves to be particularly advantageous when a fully opened tap causes the water volume flow is so large that heating to the desired or set water temperature due to the limited heat output is no longer possible. In such a case, the water flow through the throttle 22 by controlling the control unit 27 be throttled. The throttling can be done either at the beginning of the spigot, ie when the user is tapping a lot of water, or it can be done when using the temperature sensors 24 . 25 it is detected that the DHW cylinder no longer has enough hot water. Alternatively, or in addition, throttling by the throttle 22 then take place when by means of the temperature sensor 21 it is detected that the outlet water temperature is no longer reaching the desired hot water temperature. Preferably, the water flow through the throttle 22 so throttled that the heat pump 1 , the water heater 2a and / or the heat exchanger 5a is able to provide the desired hot water temperature. Although this may mean that the amount of hot water dispensed, for example, for showering is no longer comfortable, but on the other hand, a hot water delivery at the desired temperature is possible so that the user can rinse off at least still adhering soap and this does not have to perform with cold water.

According to a fourth embodiment, which is based on the third embodiment, a control or regulation of the heating system by the control unit 27a based on a user profile. To create a user profile can be detected, for example, when the user typically takes a shower in the morning or in the evening, so that the control of the heating system can respond to it in a timely manner. Thus, for example, in the case of an expected high demand for hot water, such as in the morning for showering, the hot water in the store 5 be heated in advance to a higher temperature. Thus, the water in the store 5 for example, to 60 ° C with the aid of the heat pump 1 or at 80 ° C using the water heater 2a be heated. This can be enabled, for example, that when showered in the morning, the water in the memory 5 For example, preheated to 80 ° C. If it is known from the user profile that showering is typically performed at 7 o'clock in the morning, then the control of the heating system can be set such that the water in the storage tank 5 For example, at 6.50 already preheated to 80 ° C. If then showered, then the heat pump can 1 Preheat the cold water from the cold water pipe KW, and the water heater can do that from the heat pump 1 Continue to warm heated water. Preferably, the heating of the water is carried out by the water heater 2a such that a higher temperature level is set than is usually required. The user profile can also be used to record the temperature with which a user typically takes a shower. This can also be taken into account in the regulation of preheating. Furthermore, it can be stored in the user profile how long the user takes a shower in the morning. If a user only takes a quick shower in the morning, the preheating of the water in the storage tank can be done 5 be controlled accordingly.

If by the heat pump 1 and by the water heater 2a the water is raised to a higher temperature level, so may preferably a partial flow in the memory 5 be guided, and another partial flow can be passed to the nozzle.

One Expected hot water demand can, for example, on the Storage temperature can be detected, thus, for example, can be detected be, if and when a complete Discharge has taken place and further warm water was needed.

If the heat output of the heating system is insufficient to supply the heat demand ad hoc, it may be in the storage tank 5 be brought in advance to a higher temperature, so that, for example, a multiple shower in the morning can be made possible.

Heating up in the store 5 water can be both continuously and in stages. This can be determined by the controller, when the heat pump 1 is activated and when or from which temperatures of the water heater 2a is activated.

In addition to the control described above, the control unit 27 capture if that is in the memory 5 located hot water has a temperature level which is too high, since it is not foreseeable that in the next few hours there is a corresponding heat demand or hot water demand. Thus, for example, the control may be such that the temperature of the water in the reservoir is lowered to 40 ° C when it is anticipated that little hot water will be needed. Especially with a small memory, a noticeable decrease in the temperature can take place even with a relatively small amount of bleed.

By means of the control unit 27 can be detected when last hot water has been tapped and what amount or volume has been tapped. Based on this data, the control unit 27 controlling the heating of the hot water in the storage so that the temperature of the water in the storage is reduced, if no hot water is expected to be needed.

In the heating system according to the second and third embodiments, cold water (10 to 14 ° C) is heated from the cold water pipe KW through the heat exchanger of the heat pump (2 kW) to 20 ° C. That is in the hot water tank 5 water can be heated in advance by means of the heat pump to a temperature of 50 to 55 ° C. The 50 to 55 ° C warm water is requested by a tapping process and flows to the water heater, which heats the hot water to a temperature of 60 to 64 ° C. In the mixer, the 20 ° C water is mixed with the 60 to 64 ° C water of the water heater to provide a starting temperature of 38 to 42 ° C. Thus, a volume of water of about 155 liters at 38 ° C can be provided. Thus, in contrast to the first embodiment, the water heater between the hot water tank and the mixer is provided to heat the 50 to 55 ° C warm water of the store to 60 to 64 ° C.

4 shows a schematic representation of a heating system according to a fifth embodiment. The heating system has a memory 5 for hot water as well as a coupled heat pump 1 on what heat over the heat exchanger 5a to the water in the store 5 emits. In the circuit of the heat pump can be a water heater 2a may be arranged, which further heats the water in the circuit of the heat pump as in the second embodiment.

The cold water pipe KW is connected to the storage tank 5 connected and the hot water pipe WW is also to the memory 5 connected. Another water heater 2c can be connected to the hot water outlet of the store 5 be arranged. By means of this further flow heater 2c can be realized a further increase in temperature of the water in the hot water pipe WW. The hot water tank 5 is preferably designed as a stratified storage tank and cold water first flows into the storage.

In the circuit with the heat pump 1 , the heat exchanger 5a and the pump 9 can parallel a heating circuit 4 with a pump 10 and a valve 8b as described above according to the second embodiment.

At the outlet of the hot water pipe WW, a mixing valve 28 be provided, which cold water from the cold water pipe KW with the second water heater 2c heated hot water mixed so that the output can be provided the appropriate temperature. To control the heating system by means of a control unit 27a to enable is a temperature sensor 27 in the store 5 arranged, and another temperature sensor 29 is located at the outlet of the hot water pipe WW. The control unit 27a is also with the pump 9 , the pump 10 , the first and second instantaneous water heaters 2a . 2c and the heat pump 1 coupled to this accordingly by the temperature sensors 27 . 29 to control the detected temperature.

following should be a non-limiting example a design of a heating system according to the invention in comparison to a conventional heating system to be discribed. A conventional heating system for example, a memory with 200 liters of memory exhibit. The storage temperature is typically 55 ° C, and at Showers will typically have a dispensing rate of 8 liters per minute needed. The heat pump has a heating power of 4 kW at a recording power of 1.6 kW. The water heater has a capacity of 6 kW. It is assumed that the cold water has a temperature of 14 ° C, and that the useful temperature during showering is 38 ° C.

in the In contrast, the heating system according to the invention with a memory content running out of 50 liters, the storage temperature is typically 55 ° C and the dispensing amount during showering 8 liters per minute. The heat output of the heat pump is 3 kW at a power input of 0.8 kW. The water heater has a power of 3 kW. It is also assumed here that the cold water has a temperature of 14 ° C, and that the useful temperature during Showers 38 ° C is.

Consequently is the heat content of the store according to the state 9.5 kW-hours, and the thermal output of the pin is 13.4 kW with 200 liters of memory content. If only the water heater activated, a draft time of 1.29 hours can be obtained, which corresponds to a virtual water volume of 619 liters. If the heat pump additionally activated, a draft time of 2.81 hours can be achieved, so that a total virtual water volume of 1349 liters is reached becomes.

at the heating system according to the present invention is the heat content of the store about 2.4 kW hours, so that with a heat output during the Spigot of 13.4 kW a draft of 0.23 hours only by activation of the water heater can be obtained, which is a virtual Water volume of 110 liters corresponds. In addition, if the heat pump activated, a draft time of 0.32 hours can be obtained, which corresponds to a virtual water volume of 155 liters. The virtual Quantity of water corresponds to the amount of water that is tapped can until the memory is empty.

If For example, the temperature of the cold water is 20 ° C instead of 14 ° C, then the heating system according to the invention at a heat content in the memory of 0.2 kW-hours and a heat output when tapping 10 kW a draft of 0.29 hours only by activation of the water heater get what a virtual amount of water of 139 liters. If in addition to this, the heat pump is activated, a tapping time of 0.5 hours can be achieved, which corresponds to a virtual water volume of 241 liters.

In the heating system according to the fifth embodiment, cold water (10 to 14 ° C) is provided by the cold water pipe KW and by the heat exchanger of the heat pump 1 (2 kW) heated to approx. 20 ° C. The water in the reservoir was already heated in advance, for example by means of the heat pump to 50 to 55 ° C. This water flows to the mixer and is mixed with the approximately 20 ° C warm water, so that this water is heated to 33 ° C. Then the 33 ° C warm water flows through the water heater and is heated to the desired user temperature of 38 to 42 ° C. Thus, about 155 liters at about 38 ° C can be provided.

The The control device described above may have a memory in which the time, the duration of a tapping process and possibly the set temperature is recorded. Based on these records A user profile can be created with which the admixture from the hot water, from the storage and the water from the cold water pipe KW is controlled. this makes possible an improved and energy-saving overall control of the hot water preparation.

Around can use the user profile described above, can the control unit all dispensing operations (Tapping time, tap volume, tapping temperature) and either internally or store in an external memory. These data may be appropriate be evaluated and forwarded to the control unit, so that the control unit the heating system accordingly effective - as already above described - control can.

Claims (12)

Heating system, with a cold water supply (KW) and a hot water outlet (WW), a hot water tank ( 5 ) for storing hot water, wherein the hot water tank ( 5 ) a first heat exchanger ( 5a ), a first circuit for heating in the memory ( 5 ) with a heat pump ( 1 ) for heating the liquid in the first circuit, the first heat exchanger ( 5a ) for heating the water in the storage tank and a first instantaneous water heater ( 2a ) for additionally heating the liquid in the first circuit, and a first mixing unit ( 6b ) for mixing hot water from the hot water tank ( 5 ) with water from the cold water supply (KW) in order to achieve a desired outlet temperature at the end of the hot water discharge (WW). Heating system according to claim 1, with a second heat exchanger ( 3a ) in the first circuit for heating cold water from the cold water line (KW), which by the second heat exchanger ( 3a ) heated water in the mixing unit ( 6b ) with the water from the reservoir ( 5 ) is mixed, so that the heat output of the heat pump ( 1 ) and the first instantaneous water heater ( 2a ) is used to heat the cold water. Heating system according to claim 1, with a second mixing unit ( 22 ) for mixing hot water from the storage ( 5 ) with cold water from the cold water line (KW) to reach a desired outlet temperature. Heating system according to claim 2, with a first bypass ( 15 ) for bypassing the second heat exchanger ( 3a ), so that the cold water from the cold water line in the first mixing unit ( 6b ) with hot water from the storage ( 5 ) is mixed. Heating installation according to claim 1, further comprising a second instantaneous water heater ( 2c ) at the output of the memory ( 5 ), and a third mixing unit ( 28 ) for mixing by the second water heater ( 2c ) heated water with cold water from the cold water line (KW) to achieve a desired outlet temperature. Heating system according to one of the preceding claims, wherein the heated water is heated to at least 60 ° C, before it to the mixing unit ( 22 ). Heating installation according to one of the preceding claims, wherein the mixing unit ( 22 . 6b . 28 ) from the control unit ( 27 . 13 ) that ensures that a desired outlet temperature of the hot water is obtained by reducing tap volume when the heating power of the heating system is not sufficient to provide the desired temperature at the outlet of the hot water line (WW). Heating system, in particular according to claim 1, with a cold water line (KW) for supplying cold water and a hot water pipe (WW) for discharging hot water, a hot water tank ( 5 ) for storing hot water, a heat pump ( 1 ) and a heat exchanger ( 3 ), wherein the heat exchanger ( 3 ) in a water circuit for heating in the reservoir ( 5 ) is arranged, a mixing unit ( 6 ) for mixing hot water from the storage ( 5 ) and by the third heat exchanger ( 3 ) heated water, and a third instantaneous water heater ( 2 ) at the outlet of the mixing unit ( 6 ) for further heating the water. Heating installation according to one of the preceding claims, with at least one temperature sensor ( 11 . 12 ) and a control unit ( 13 ) for controlling the heat pump, the mixing unit ( 6 ) and / or the instantaneous water heater ( 2 ) as a function of the at least one temperature sensor ( 11 . 12 Tempera ture, wherein the control is such that the heat exchanger and / or the water heater for heating cold water from the cold water line (KW) are activated when in the memory ( 5 ) located hot water is not sufficient for a tapping. Heating system according to one of the preceding claims, wherein the control unit ( 13 . 17 ) is configured to control the heating system based on at least one user profile, wherein the user profile is compiled based on empirical values such as the bleed volume, the bleed duration, the bleed time, and / or the bleed temperature. Method for controlling a heating system with a hot water storage, a first circuit for heating the hot water in the storage, wherein the first circuit is a heat pump ( 1 ), a water heater ( 2a ) and a heat exchanger ( 5a ), comprising the steps of: heating in the reservoir ( 5 ) through the heat exchanger ( 5a ) supplied heat, whereby through the heat exchanger ( 5a ) supplied heat through the heat pump ( 1 ) and / or through the instantaneous water heater ( 2a ), wherein the instantaneous water heater ( 2a ) serves as an auxiliary heat source. The method of claim 11, further comprising Steps: Detecting the temperature of the water in the hot water pipe (WW), in the memory ( 5 ) and / or behind the water heater ( 2a ), and controlling the heat pump ( 1 ), of the water heater ( 2a ) and / or the mixing unit ( 22 ) for mixing the hot water from the storage ( 5 ) in order to obtain a desired outlet temperature, wherein the control is such that the heat exchanger and / or the water heater for heating cold water from the cold water line (KW) are activated when in the memory ( 5 ) located hot water is not sufficient for a tapping.